Pituitary
- Growth hormone
- Secreted by the anterior pituitary
- Influences the size of the skeleton and soft tissue
Pituitary dwarfism
Pituitary gigantism (Acromegaly)
Thyroid
- Thyroid hormones affect maturation of growth of cartilage
Hypothyroidism
Hyperthyroidism
Gonadal Effect on Bones
Adrenal glands
Hyperparathyroidism
Rickets
Osteomalacia
- Failure of mineralisation of osteoid / softening of the bones
- Active resorption of bone replaced by excess osteoid on trabeculae, endosteum of cortices and Haversian canals
- Decreased resistance to tension -> osteoid build-up at tendon insertions
- In advanced disease
- Bones break easily and become deformed
- Tendons may separate from bones
- Caused by prolonged phosphorus and Vitamin D deficiency
- Vitamin D maintains normal plasma levels of calcium and phosphorus through acting on the intestines, bones and kidneys
- In mature animals
- Mainly grazing ruminants following gestation and lactation
- Sunlight is important for production of vitamin D in the skin of ruminants
- Vitamin d is also present in sun-dried hay
- Mostly seen where there is long grass growing season with poor sunlight
Hypovitaminosis A
- Vitamin A is essential for normal bone growth in foetus and neonates
- Hypovitaminosis from dietary deficiency of dam -> teratogenic in pigs and large cats
- More commonly, deficiency in neonates (puppies, kittens, calves, piglets) on vitamin-deficient diets
- Dietary deficiency -> failure of osteoclastic remodelling resulting in bone overgrowth and nerve compression
- Optic nerves particularly affected
Hypervitaminosis A
- Main lesions:
- Injury to growth cartilage -> premature closure of growth plate
- Osteoporosis
- Exostoses
- Osteophyte formation in prolonged exposure
- In cats fed bovine liver for prolonged periods
- Rich in vitamin A in grazing animals
- Vertebrae fuse with each other due to bone proliferation - cervical spondylosis (ankylosing exostosis of the vertebral column), especially in the neck
- Can also be teratogenic, especially in pigs (cleft plate and abortions)
Hypervitaminosis D
- May be of dietary or iatrogenic origin (has narrow safety margin)
- Key features are hypercalcaemia with metastatic calcification of soft tissues
- Acute poisoning
- In dogs and cats often from rodenticides containing cholecalciferol
- Grossly:
- Gastrointestinal haemorrhage
- Foci of myocardial discoloration
- Microscopically:
- Mucosal haemorrhage
- Necrosis of crypts
- Focal myocardial necrosis
- Mineralisation of intestinal mucosa, blood vessel walls, lungs and kidneys
- Chronic poisoning
- Grossly:
- Intense osteoclastic activity -> active resorption of bone, especially trabecular
- Microscopically:
- Excessive production of osteoid - appears both eosinophilic and basophilic in different places
- Marrow cavity may be obliterated
- Mineralisation of soft tissues, especially blood vessel walls
- Due to inhibition of Parathyroid Hormone (PTH)|PTH and increase of calcitonin
- Grossly:
Fluorine poisoning
- F is widespread in nature
- Pastures may be contaminated by industrial processes (e.g. brick manufacture)
- Acute poisoning:
- Gastroenteritis
- Nephrosis
- Chronic poisoning:
- Dental abnormalities
- Intoxication during teeth development
- Foci of poor enamel formation - yellow, dark brown/black, chalky
- Irregular wear of teeth, chip easily
- Osteodystrophy = Fluorosis
- Generalised skeletal disturbance
- Most affected are metatarsals and mandibles
- Periosteal hyperostosis + endosteal bone resorption -> thickened bones with enlarged marrow cavities
- Dental abnormalities
Lead poisoning
- Lead can bind to mineral portion of bone and cartilage
- In young animals ingesting large dose at once
- -> Lead induced malfunction of osteoclasts
- -> Transverse band of increased density on radiographs of metaphysis = "lead line" = growth retardation lattice